Quantum Nanotechnology: Concepts to Devices. Just as the technological advances of the past few decades at the micro level fundamentally changed our lives, so too the emerging era of 'quantum nanotechnology' promises to revolutionise our society in the 21st century. This Fellowship will explore and develop critical areas of quantum nanotechnology - absolutely secure communication, nanoscopic level imaging, and exponentially fast computers. Such technology will have far reaching applications in a ....Quantum Nanotechnology: Concepts to Devices. Just as the technological advances of the past few decades at the micro level fundamentally changed our lives, so too the emerging era of 'quantum nanotechnology' promises to revolutionise our society in the 21st century. This Fellowship will explore and develop critical areas of quantum nanotechnology - absolutely secure communication, nanoscopic level imaging, and exponentially fast computers. Such technology will have far reaching applications in all areas of society and provide significant National benefit.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561136
Funder
Australian Research Council
Funding Amount
$376,352.00
Summary
36-megapixel CCD camera for wide-field astronomy. This project aims to design and build a state-of-the-art 36-megapixel charge-coupled device (CCD) camera for wide-field imaging on a robotic telescope at Siding Spring Observatory. The camera will employ a mosaic of two 18-megapixel CCDs, which are amongst the largest ever fabricated. This new facility will have an unprecedented ability to obtain precision photometry over a wide field, and will enable breakthroughs in research into areas as diver ....36-megapixel CCD camera for wide-field astronomy. This project aims to design and build a state-of-the-art 36-megapixel charge-coupled device (CCD) camera for wide-field imaging on a robotic telescope at Siding Spring Observatory. The camera will employ a mosaic of two 18-megapixel CCDs, which are amongst the largest ever fabricated. This new facility will have an unprecedented ability to obtain precision photometry over a wide field, and will enable breakthroughs in research into areas as diverse as detection of extra-solar planets and nearby supernovae. The camera will also lead to collaborative research with ANU's newly-funded Skymapper telescope, as well as the Anglo-Australian Observatory's 6dF and 2dF instruments.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347464
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
Setting up an integrated wirebonding and testing facility for MEMS applications. This project intends to setup an integrated wire bonding and testing facility suitable for Micro electromechanical systems (MEMS) applications. Wire bonding is an essential step for making the contacts of any micro device with external power supply or signal conditioning circuitry. The contact pads for such devices vary in size from 0.050 mm x 0.050 mm to few 100s of micrometers. The proposed facility will be requi ....Setting up an integrated wirebonding and testing facility for MEMS applications. This project intends to setup an integrated wire bonding and testing facility suitable for Micro electromechanical systems (MEMS) applications. Wire bonding is an essential step for making the contacts of any micro device with external power supply or signal conditioning circuitry. The contact pads for such devices vary in size from 0.050 mm x 0.050 mm to few 100s of micrometers. The proposed facility will be required for making contacts either using thermal or ultrasonic methods with complete automatic stages. The electrical contacts are used to drive or monitor MEMS, Polymer micro devices and nano- fluidic systems. This facility will be used for different applications including photonics and communication devices (RMIT), flexi circuits and microwave devices (DSTO) and micro/nano fluidic systems (SUT). This will be the only advanced integrated facility in Victoria, which will have the wire bonding(ball & wedge), die bonding and bond testing facilities together.Read moreRead less
Novel silicon photonic devices harnessing new leakage behaviour. The continuing advance of microprocessor performance requires vast quantities of data to be transferred between on-chip processor cores and to the outside world. The transfer of data via metal wires cannot meet this demand due to limited bandwidth and astonishing heat generation. Low-loss photonic transport integrated onto the silicon chip offers a solution. With this project we will explore harnessing a newly discovered phenomenon ....Novel silicon photonic devices harnessing new leakage behaviour. The continuing advance of microprocessor performance requires vast quantities of data to be transferred between on-chip processor cores and to the outside world. The transfer of data via metal wires cannot meet this demand due to limited bandwidth and astonishing heat generation. Low-loss photonic transport integrated onto the silicon chip offers a solution. With this project we will explore harnessing a newly discovered phenomenon in silicon photonics to achieve devices such as electrically pumped lasers and wavelength routers. The project will collaborate closely with researchers in the USA, but will focus on research of designs that can be created in Australia and licensed to major industry across the globe.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0214172
Funder
Australian Research Council
Funding Amount
$320,000.00
Summary
Measuring highly resolved flow and sound in Australia's largest wind tunnel. Monash and RMIT Universities have developed an aero-acoustic facility of international standing to study flows around vehicles, buildings and structures. This is based around the largest wind tunnel in the Southern Hemisphere, which provides a National facility crucial to the development of a competitive automotive industry. To achieve the next stage of research development, velocities and acoustic fields need to be mea ....Measuring highly resolved flow and sound in Australia's largest wind tunnel. Monash and RMIT Universities have developed an aero-acoustic facility of international standing to study flows around vehicles, buildings and structures. This is based around the largest wind tunnel in the Southern Hemisphere, which provides a National facility crucial to the development of a competitive automotive industry. To achieve the next stage of research development, velocities and acoustic fields need to be measured with increased accuracy and spatial resolution than currently available. Given the physical scale of the facility, it is proposed to achieve this with an automated measurement system, which will also be integral to future research programs.Read moreRead less
Production of a compact disk summarising the evolution and impact of Boger fluids. In 1977 the discovery of a unique class of materials, now called Boger fluids, was reported in the Journal of Non-Newtonian Fluid Mechanics. These materials have had a huge impact in the development of non-Newtonian fluid mechanics, to the extent that the Institute of Non-Newtonian Fluid Mechanics in the UK have offered to make a cd documenting the impact of these materials. Funding is requested to support, in p ....Production of a compact disk summarising the evolution and impact of Boger fluids. In 1977 the discovery of a unique class of materials, now called Boger fluids, was reported in the Journal of Non-Newtonian Fluid Mechanics. These materials have had a huge impact in the development of non-Newtonian fluid mechanics, to the extent that the Institute of Non-Newtonian Fluid Mechanics in the UK have offered to make a cd documenting the impact of these materials. Funding is requested to support, in part, the documentation of this important discovery.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882471
Funder
Australian Research Council
Funding Amount
$430,000.00
Summary
Three-Dimensional Optical Laser Velocimetry for the HRNBLWT (High Reynolds Number Boundary Layer Wind Tunnel). The experimental information that can be gained from this infrastructure would lead to significant advances in understanding turbulent flows, which would impact a broad range of engineering and geophysical fields. Some specific examples include the development of efficient turbulence control strategies for the reduction of skin-friction drag and improved combustion processes, resulting ....Three-Dimensional Optical Laser Velocimetry for the HRNBLWT (High Reynolds Number Boundary Layer Wind Tunnel). The experimental information that can be gained from this infrastructure would lead to significant advances in understanding turbulent flows, which would impact a broad range of engineering and geophysical fields. Some specific examples include the development of efficient turbulence control strategies for the reduction of skin-friction drag and improved combustion processes, resulting in not only better fuel efficiency for vehicles but also reduced CO2 and pollutant emissions. Significant advances could also be made in the area of understanding the dispersion of particles, including pollutants, in the atmosphere; wind turbine design and implementation strategies, and climate change modelling.Read moreRead less
The structure of turbulent boundary layers. This research has an enormous impact in many fields of engineering - for example, in aeronautical, mechanical, chemical, meteorological and biomedical engineering. The resulting energy and economic savings and the reduction in atmospheric pollution and greenhouse gasses will ultimately impact on areas such as global climatic change and the energy sustainability of our urban environment, thus influencing the well-being of all people living on this plan ....The structure of turbulent boundary layers. This research has an enormous impact in many fields of engineering - for example, in aeronautical, mechanical, chemical, meteorological and biomedical engineering. The resulting energy and economic savings and the reduction in atmospheric pollution and greenhouse gasses will ultimately impact on areas such as global climatic change and the energy sustainability of our urban environment, thus influencing the well-being of all people living on this planet. This research project will result in technological advancement and provide important training for future generations of researchers. This will entrench the Australian engineering and scientific community as world leaders in this area of scientific research.Read moreRead less
The structure of turbulence at high Reynolds numbers. The aim of this project is to gain a physical understanding of the process of turbulence in fluid motion, focusing on boundary layers adjacent to the surface of bodies, such as submarines and turbines. As turbulence is of fundamental importance in many engineering tasks, developing our understanding of the mechanisms involved will lead to progress in many areas. For example, accurate prediction of drag on vehicles, aircraft and ships, result ....The structure of turbulence at high Reynolds numbers. The aim of this project is to gain a physical understanding of the process of turbulence in fluid motion, focusing on boundary layers adjacent to the surface of bodies, such as submarines and turbines. As turbulence is of fundamental importance in many engineering tasks, developing our understanding of the mechanisms involved will lead to progress in many areas. For example, accurate prediction of drag on vehicles, aircraft and ships, resulting in reductions in fuel consumption. The wind tunnel used in this project is the largest of its type in the world, enabling pioneering experiments to be undertaken which will extend our understanding of the physics of turbulence for applied flows.
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Critical Tests of Quantum Electro-Dynamics (QED) in heavy atomic systems. The 2005 Nobel prize was awarded for high-precision spectroscopy and a critical test of QED in light atomic systems. This led to dramatic applications to constants of nature and Quantum Optics. Our research has also developed state-of-the-art detector and spectrometer technology in pursuit of fundamental knowledge, but in the X-ray regime. We will make major progress for heavy atomic systems. Applications include the deve ....Critical Tests of Quantum Electro-Dynamics (QED) in heavy atomic systems. The 2005 Nobel prize was awarded for high-precision spectroscopy and a critical test of QED in light atomic systems. This led to dramatic applications to constants of nature and Quantum Optics. Our research has also developed state-of-the-art detector and spectrometer technology in pursuit of fundamental knowledge, but in the X-ray regime. We will make major progress for heavy atomic systems. Applications include the development of a few-electron calibration lamp, widely discussed as a new energy standard. These studies provide data, physical insights and highly skilled personnel for Australia's future in frontier technologies. Our fundamental research has led to two orders of magnitude improvement in mammographic diagnostic accuracy.Read moreRead less